In the early 1930s, Louis Néel discovered the abnormality that specific materials that consist of magnetic elements and exhibiting zero remanence at any temperature did not conform to the paramagnetic Curie law.
An unusual interaction between metal and light can be harnessed to make chemical reactions more sustainable, but the physics underlying it has been extensively debated in the field.
Innovative dental biomaterials for the regeneration of dental hard tissues have been developed as an outcome of the collaboration of Salvatore Sauro, Professor of dental biomaterials and minimally invasive dentistry at CEU Cardenal Herrera University, in Spain, with several researchers from Finland, Brazil, Belgium, Germany and the UK.
Chemists from the University of Kentucky and the Institute of Physics Research of Mar del Plata in Argentina recently reported a new way for triggering a basic step in the mechanism of photosynthesis, providing a process that proves to be promising in the development of a new technology that will help reduce the levels of carbon dioxide.
A Research group, headed by Zhe Fei from Iowa State University, has captured the first images of half-light, half-matter quasiparticles known as exciton-polaritons. This latest discovery could lead to the development of faster nanophotonic circuits than present-generation of electrical circuits. The study has been reported in the scientific journal, Nature Photonics.
When you zoom in on a crystal, you will find an ordered array of atoms that are evenly spaced like the windows on the Empire State Building. But when you zoom in on a piece of glass, the picture looks a bit messier, more like a random pile of sand, or maybe be the windows on a Frank Gehry building.
MIT researchers are discovering ways to make the dining experience fun and interactive, with food that can alter its shape when water is added.
Typically X-rays are used by Doctors to see the broken bones inside a patient’s body. Now, Scientists have formulated a new X-ray method to view inside continuously packed nanoparticles, also known as grains, to study dislocations and deformations that affect their properties.
Traditional chemistry is enormously powerful in relation to creating very varied and very complex microscopic chemical molecules.
With the help of an atomic force microscope, researchers from the University of Basel's Swiss Nanoscience Institute network have managed to study the strength of hydrogen bonds in a single molecule for the first time. They have reported their findings in the Science Advances journal.
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